I have 3 booleans on my code (C#) and an int32 property that depends on what booleans are true and false. Whats the best way to accomplish this in another way than if statements like:

if(a && b && !c)
   d = 1;
if(a && !b && !c)
   d = 2;
//etc.. ect...

EDIT: The 3 booleans must have every combination possible to set the int32 value.

EDIT 2: The value of "d" can be the same for two different boolean comparations.

  • 4
    If there are always exactly three booleans, you could build a table ahead of time and then just look up the specific item using the booleans as keys. – cdhowie Apr 9 '13 at 14:44
  • An array of integers and then the 3 booleans used as single bits to index the proper entry. Kind of compact representation of a binary tree. – Adriano Repetti Apr 9 '13 at 14:46
  • To the EDIT: my answer shows how to calculate a 'combination index' from the constituent conditions – sehe Apr 9 '13 at 14:53

It is better to capture the intent of the operation instead of explicitly check the boolean values.

For example:

public void Check()
   if (HasOrdered())
      // do logic

private bool HasOrdered()
    return a && !b && !c;

private bool HasBooked()
    return a && b && !c;
  • +1 Strongly agree, whichever is the most compact way to check that conditions we shouldn't forget the domain. – Adriano Repetti Apr 9 '13 at 14:48
  • +1 here too. I still posted my answer because it isn't clear from the OP that his scenario lends itself for 'descriptive domain name' – sehe Apr 9 '13 at 14:52
  • 1
    If he wants to make terse code this kind of defeats the purpose – SamFisher83 Apr 9 '13 at 14:53

You could use a Karnaugh map to reduce your equations and have fewer ifs.


  • This is the best solution I am shocked so many people didn't suggest this. – Security Hound Apr 9 '13 at 15:23
  • 2
    @Ramhound many people will simply prefer to write the logic as it arises, not how it effectively combines, eventually; K-maps focus on the outcome only and ruthlessly eliminate any information from the input that doesn't influence the result anymore. This information is therefore no longer apparent from the source. Hene, the source is no longer a reflection of functional requirements. It's harder to prove right, not easier. Even harder to maintain (modify). Instead, usually you should let the compiler worry about optimizing (which can happen even after inlining). – sehe Nov 4 '13 at 22:08

I think what your doing now is perfectly fine and any other solutions would be down to preference.

My preference, where it applies would be to separate the checks out if possible.

 if (!a)
 if (!b)
 if (!c)

This would be useful in the event that you need to check certain prereqs before issuing a function, like if the user has logged in, if a parameter exists and is in the right context, along with other items.

Like i said this might not apply but i just wanted to voice my opinion


You could do the lookup table hint given by @Adriano, assuming you have lookup_table filled with values for index [0..8):

var index = new [] { a,b,c }.Aggregate(0, (a,i) => return 2*a + (i?1:0));

int d = lookup_table[index];

Edit The EDIT of the question made this irrelevant: What does d mean?

If it's the count of false values (possible from the sample code), make it

int d = new [] { a,b,c }.Count(b => !b);


I don't see anything wrong with how you're doing it, but if the output is the same for multiple conditions you may be able to simplify if by creating a truth table and simplifying the conditions.

For example, if d should be 0 anytime a is false you could simplify to:

   if(b && !c)
       d = 1;
   if(!b && !c)
       d = 2;
    d = 0;

Or if there is some mathematical pattern (e.g. a, b, and c represent the three digits of a binary number) then you could do bit arithmetic.

If, however, you have 8 distinct outcomes (one for each combination of a, b, and c) then your method is fine.

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